Post on 15-Sep-2018
Microscope viewing units and objective lenses for UV, NUV, VISIBLE & NIR REGION
MICROSCOPE UNITS AND OBJECTIVE LENSES
PRE1299(2)
Optical Measuring
Ref.: ”Microbio-World Ver.7, (http://elfe.miyakyo-u.ac.jp/opac/2008/03/cd_2.html)
Many of today’s ultra-microscopic manufacturing technologies require sub-micron accuracy. Mitutoyo produces microscope systems with advanced features that combine optical and precision measurement technologies developed by us over a long period of time. Mitutoyo microscopes can be integrated into manufacturing systems, research and development equipment, and product inspection lines. Contact your nearest Mitutoyo Sales Office for further details on standard product specifications as well as custom-designed microscopes to best fit your application.
3
Systems for laser applications
System for analysis
1/2” Camera(high magnification)
2/3” Camera(low magnification)
By installing a digital camera on a microscope the VMU provides a simple and compact system which allows microphotography and simultaneous ex-ternal monitor observations. The VMU can be used in vertical and inverted positions according to your application requirements.> Microphotography and observation of metallic, resinous and printed surfaces> Micro-fluid analysis> Cell and microorganism observation/analysisDual-camera systems featuring high and low magnification and differential interference observation are also available.
Microscope unit and objectives compatible with YAG lasers (1064nm, 532nm, 355nm and 266nm) allow high precision and quality working.> Peeling off protective films and organic thin-films> Cutting of IC wiring (Au, Al) and exposure of lower layer pattern> FPD defects repair> Photomask repair> Marking, trimming, patterning, spot annealing and scribing
UV laser application using FS70L4
Probe (positioner tip)
Digital microscopic system using VMU-V
Flaking of polyimide membrane
Color filter working
Ref: V Technology Co., Ltd.
SEM photograph of IC surface after removing upper layer
UV laser application using VMU-L4B
Optical systems using Mitutoyo M Plan Apo NIR objectives that cover a wide range of wavelength from visible to infrared are providing solutions on the production line and in the laboratory. Nondestructive inspection is made possible by using an infrared source.> Micro-fluid analysis> Thickness measurement of LCD thin film and silicon board film> Internal inspection/analysis and 3D evaluation of MEMS devices> Internal observation of IC packages, void inspection/evaluation of wafer junctions, spectral characteristics analysis using infrared> Femtosecond laser applications
By mounting two cameras on VMU-L you can observe the same area at different magnifications simultaneously.
The Mitutoyo M Plan Apo objectives provide a long working distance. This allows you to design an optical system for defects evaluation of semicon-ductor integrated circuits and precise repair with YAG lasers. The optical system for direct observation is also available.
System with digital camera System for IR analysis/inspection
System for dual-camera (high & low magnifica-tion) observation
A wealth of Applications
ContentsVideo Microscope Unit
VMU ······································································································ 6
Fine Scope Unit
FS70 ····································································································· 10
Zoom Video Microscope Unit
VM-ZOOM ······················································································ 14
Objectives for Bright Field (long working distance)
M Plan Apo/M Plan Apo HR ·············································· 16
Objectives for Bright Field (ultra-long working distance)
M Plan Apo SL ·············································································· 17
Objectives for Bright Field (with glass-thickness compensation)
G Plan Apo ······················································································ 17
Objectives for Bright/Dark Field (long working distance)
BD Plan Apo/BD Plan Apo HR ·········································· 18
Objectives for Bright/Dark Field (ultra-long working distance)
BD Plan Apo SL ··········································································· 19
Near-infrared Objectives for Bright Field
M Plan Apo NIR/M Plan Apo NIR HR ·························· 20
Near-infrared Objectives for Bright Field (with glass-thickness compensation)
LCD Plan Apo NIR ······································································ 20
Near-ultraviolet Objectives for Bright Field
M Plan Apo NUV/M Plan Apo NUV HR ······················ 21
Near-ultraviolet Objectives for Bright Field (with glass-thickness compensation)
LCD Plan Apo NUV ··································································· 21
Ultraviolet Objectives for Bright Field
M Plan UV ······················································································· 22
Tube lens
MT ········································································································ 23
Objectives for Measuring Microscopes
ML/CF································································································· 24
Wide field of view Eyepieces & Reticles
WF/UWF ··························································································· 25
Optional accessories of VMU, FS70 and VM-Zoom
Stand · Stage · Illumination Unit ····························· 26
Dimensions ·················································································· 27
Glossary ·························································································· 30
5
> Small, lightweight microscope unit designed for a camera observation systemSuitable for observing a wide range of objects: metal, resin, printed surfaces, minute mechanisms, etc.
> Compatible with YAG lasers (1064 nm, 532 nm, 355 nm and 266 nm)Suitable for cutting, trimming, repair and marking of IC wiring (Au, Al), removing and processing thin film (insulating film) and repair of color filters (defects repair).
> Compatible with infrared optical systemAvailable for internal observation of IC packages and spectral characteristics analysis using an infrared source and camera.
> Standard of telecentric reflective illumination system with aperture diaphragmThis is the best illumination system for image processing applications (e.g. dimension measurement, form inspection and positioning) which require even lighting.
> Extending the VMU series with high rigidity/performance VMU-LB and VMU-L4B models.> Available for dual-camera (high & low magnification) observation (VMU-L, VLU-L4, VMU-LB and VMU-L4B).
Features
VMU-V VMU-H VMU-LB VMU-L4B
*Objectives shown mounted on tubes are optional.
Model No. VMU-V VMU-H VMU-L VMU-L4 VMU-LB VMU-L4BOrder No. 378-505 378-506 378-507 378-508 378-513 378-514Camera mounting orientation Vertical Horizontal Vertical Vertical (rotatable) Vertical (rotatable)Observation BF, erect image BF, inverted image BF, erect image
Optical tube
Camera port
Optical features Magnification: 1X; Wavelength (λ): visible radiation
Mount C-mount (centering and parfocal adjustment) C-mount with centering and parfocal adjustment
C-mount with centering and parfocal adjustment and green filter switch
C-mount with centering and parfocal adjustment
C-mount with centering and parfocal adjustment and green filter switch
Tube lens (correction range) 1X (visible - NIR) 1X (NUV - visible - NIR) 1X (UV - visible) 1X (NUV - visible - NIR) 1X (UV - NUV - visible - NIR)
Laser port
Optical features — λ: 355/532/1064 nm λ: 266 /532 nm λ: 355/532/1064 nm λ: 266/355/532/1064 nm
Mount — With parfocal adjustment
Suitable YAG laser type*2 —
Fundamental, second and third-harmonic
mode
Second and fourth - harmonic mode
Fundamental, second and third-harmonic
mode
Fundamental, second, third and fourth-harmonic mode
Polarizer*1 Available for observation Available for observation and laser applications
Suitable objective (optional)
For observation M Plan Apo/HR/SL, G Plan Apo
For laser cutting — M/LCD Plan Apo NIR,M/LCD Plan Apo NUV M Plan UV M/LCD Plan Apo NIR,
M/LCD Plan Apo NUV
M/LCD Plan Apo NIR,M/LCD Plan Apo NUV,
M Plan UV
Suitable camera 2/3” or smaller C-mount compatible typeOptical system illumination Telecentric reflective with aperture diaphragmFiber-optic illuminator (optional) 12V/100W (378-700D), 12V/150W (178-316D)
Mass (Dimensions: Refer to page 27.) 650 g 750 g 980 g 1010 g 1270 g 1300 g
*1: M Plan Apo 1X objective should be used together with the polarizer (378-710 or 378-715).*2: When mounting a laser, ensure all safety precautions are observed and be aware of laser output power, beam energy density and the unit's
weight. Please consult Mitutoyo if in doubt.
Specifications
Video Microscope UnitVMU
System diagram
*1: Compatible with 1/2-inch or less C-mount cameras.*2: Use focusing unit B (378-706) if the distance between the mounting position and VMU main unit is
desired to be as small as possible. If the manual turret nosepiece unit (378-707) is used concurrently, mount the unit in front of the
VMU main unit. For details on mounting position, refer to the figures on page 9.*3: This turret nosepiece unit cannot be used with focusing unit B (378-706). For details on mounting
position, refer to the figures on page 9.*4: Use this mount when mounting a C-mount camera using the laser port. Use this mount for 2/3-inch
or smaller cameras.*5: Mitutoyo does not sell these lasers. Consult Mitutoyo for more information.*6: An adapter may be required when mounting any of these stages. Consult Mitutoyo for more
information.
VMU-V(378-505)
VMU-H(378-506)
VMU-LB(378-513)
VMU-L4B(378-514)
12AAB251 ND212AAB252 ND812BAA583 GIF12BAA584 LB80
F i l ters ( for fiber-opt ic i l luminat ion unit No.378-700 )
Transmitted light unit(378-736)P.26
Fiber-optic illumination unit100W (378-700)
150W (176-316)
P.26
Simple stand(378-730)P.26
Quad
Manual turret nosepiece unit (for BF) *2
(378-707) P.8
Polarizer(378-710) P.8
Polarizer(378-715) P.8
Third-party YAG lasers*5
0.5X TV adapter unit *1
(378-704) P.82X TV adapter unit(378-703)
Focusing unit A(378-705) P.8
Focusing unit B *2
(378-706) P.8
ObjectivesM Plan Apo series (for observation): All types on P.16 to 17
G Plan Apo series (for observation): All types on P.17
M/LCD Plan Apo NIR series on P.20 (for fundamental/second harmonic laser machining): Used for LB(for near-infrared observation): Used for V/H/L
M/LCD Plan Apo NUV series on P.21 (for second/third harmonic laser machining): Used for LB
M Plan UV series on P.22 (for second/fourth harmonic laser machining): Used for L4B
12AAB251 ND212AAB252 ND812BAA583 GIF12BAA584 LB80
Quintuple
Self-aligning motorized turretnosepiece unit (for BF) *3
(378-713) P.8
C-mount compatible analog camera or digital cameraExample: ImageX PRO 3000
Fixed-magnification monitoring camera mount (378-087) P.8 *4
Fiber-optic illumination unit100W (378-700)
P.26
X-Y stage (50×50mm)(378-020)
150W (176-316)
P.26
Filters (for fiber-optic illumination unit No.378-700)
Third-party motorized X-Y stages (50×50mm)*6
VMU-L(378-507)
VMU-L4*6
(378-508)
7
Installed on VMU-V with optional objectives
Installed on VMU-V with optional objectives
No.378-710
No.378-715
378-087 Mass: 180 g
Focus unit A mounted on VMU-V with an optional objective
2X TV adapter unit 0.5X TV adapter unit
Console box
Has 4 objective mounts and can be fixed in the desired position relative (inward, outward, etc.) to the mounting surface.
Has 5 objective mounts and can be fixed in the desired position relative (inward, outward, etc.) to the mounting surface.
Manual focus units for the VMU. An optional stand (378-730) and XY stage (378-020) are provided to be used in combination.A power focus unit is also available. Refer to page 12.
C-mount adapters for changing to a higher or lower magnification.
Can be attached to the laser mount (VMU-LB and VMU-L4B) for dual-camera system. It is compatible with 2/3” or smaller C-mount cameras.
Provides simplified polarized light observation. Also enhances contrast of low-magnification objectives.378-710: For VMU-V and VMU-H For VMU-L and VMU-L4378-715: For VMU-LB and VUM-L4B
Manual turret Power turret
Focus unit A and B
TV adapter unit
Camera mount
Polarizer
Order No. 378-713Observation method Bright fieldNo. of objective mounts 5, with centering adjustmentView field adjustment ±0.5 mmPositioning accuracy 2σ=3 μmDurability (life-time) 1 million repositioning operationsDrive method DC motorPower supply AC100V - 240V, 10WOutput interface RS-232C* for external PC controlCable length 3 m
Dimensions (WxHxD) and massTurret: 130 x 47 x 186 mm, 1.8 kg,Console box: 108 x 63 x 176 mm, 810 g
Focus unit A Focus unit BOrder No. 378-705 378-706Travel range 50 mmCoarse/fine feed Coarse: 3.8 mm/rev., Fine: 0.1 mm/rev.Loading capacity Approx. 17.4 kg Approx. 17.7 kgMass 2.9 kg 2.7 kg
2X TV adapter unit 0.5X TV adapter unitOrder No. 378-703 378-704Magnification 2X 0.5XSuitable camera 2/3” or smaller type 1/2” or smaller typeMass 25 g 25 g
Order No. 378-710 VMU-V • VMU-H • VMU-L • VMU-L4Order No. 378-715 VMU-LB • VMU-L4B
Order No. 378-707Observation method Bright fieldNo. of objective mounts 4Mass 780 g
Installed on VMU-L4B
*Optional RS-232C Cable: 12AAA807
Optional Accessories for VMU
When mounting the turret on VMU-V or VMU-HNote 1: The lens mount must be removed from VMU.Note 2: The turret can be fixed in the desired position relative (inward, outward, etc.) to the
mounting surface. (VMU-H only)
When mounting the turret on VMU-V or VMU-HNote 1: The lens mount must be removed from VMU.Note 2: The turret can be fixed in the desired position relative (inward, outward, etc.) to the
mounting surface. (VMU-H only)
Installing the polarizer and analyzer on VMU-V or VMU-H and VMU-L/VMU-L4Note: The analyzer is installed by opening the main body mirror head. The polarizer is installed
by removing the illumination tube.
When installing the polarizer on VMU-LB or VMU-L4BNote: The analyzer is installed by loosening the cover ring. The polarizer is installed by removing
the illumination tube.
When mounting the turret on VMU-LB or VMU-L4BNote 1: The middle optical tube and lens mount must be removed from VMU.Note 2: The turret can be fixed at 45º intervals around the optical axis.
When mounting the turret on VMU-LB or VMU-L4BNote 1: The middle optical tube and lens mount must be removed from VMU.Note 2: The turret can be fixed in the desired position relative to the optical axis.
Manual turret
Power turret
Focus unit A and B
TV adapter unit Camera mount
Polarizer and Analyzer
(Parfo
cal d
istan
ce)
MAX 130*
76
76.5
9532
2727
MAX 78*
9532
MAX 126*78
27
7627
27
MAX 77*
95
41.5 76
27
2727
27
108
(Par
foca
ldi
stanc
e)
95
Mount unit
7627
27
* Where M Plan Apo 100X (378-815) is used
* Where M Plan Apo NIR HR100X (378-864-5) is used
Mount unit
Intermediate lens tube
Workpiecesurface Workpiece
surface
Workpiecesurface
(Parfo
cal d
istan
ce)
(Parfo
cal d
istan
ce)
Workpiecesurface
2727
2727
63.5
63.594 (4)
102
126.
514
014
4(4
)7.
5
ø70
ø69
229 5-M4 screw holes, depth 8
8056.5 73 1
56
2714
989
.5
117
4.5
272525
Vertical travel
(37) Hole positions for mounting onto the main unit
7.563.5
102(4)9473 1
229
(4)
144
140
126.
5
2789
.514
94.
5
2525
27
Vertical travel
(37)
ø69
ø70
56
63.5
Hole positions for mounting onto the main unit
26.550
87.6
Focusing unit A
Focusing unit B
5-M4 screw holes, depth 8
23.523.5
23.523.5
M20×0.5
2776
9527
8788.6
3253
.7
MAX130*
2776
2795
27
MAX78*136
* Where M Plan Apo 100X (378-815) is used
2776
9527
8788.6
3253
.7
MAX126*
M20×0.5
41.5
27
27
Mount unit
Intermediate lens tube
MAX77*136
* Where M Plan Apo NIR HR100X (378-864-5) is used
Workpiece surface
Workpiece surface
(Parfo
cal d
istan
ce)
Workpiece surface(Pa
rfoca
l dist
ance
)
(Parfo
cal d
istan
ce)
(Par
foca
l dist
ance
)
27
9576
2727
Workpiece surface
41.5
1520
.5
28
(Par
foca
ldi
stanc
e)
(Par
foca
ldi
stanc
e)
152.
524
7.5
9576
2727
Illuminated lens tube
41.5
27
20.568
.5
Main body
Main body
Vertical illumination unit with aperture diaphragm
Vertical illumination tube with aperture diaphragm
Analyzer
Polarizer
Analyzer
Cover ring
Polarizer
Workpiece surface
9576
2727
Workpiece surface
(Parfo
cal d
istan
ce)
MAX 130*
76
76.5
9532
2727
MAX 78*
9532
MAX 126*78
27
7627
27
MAX 77*
95
41.5 76
27
2727
27
108
(Par
foca
ldi
stanc
e)
95
Mount unit
7627
27
* Where M Plan Apo 100X (378-815) is used
* Where M Plan Apo NIR HR100X (378-864-5) is used
Mount unit
Intermediate lens tube
Workpiecesurface Workpiece
surface
Workpiecesurface
(Parfo
cal d
istan
ce)
(Parfo
cal d
istan
ce)
Workpiecesurface
2727
2727
170.
717
.5
152.
517
.5
Intermediate image positionC mount
2X adapter lens unit
Intermediate image positionC mount0.5X adapter lens unit
Dimensions with the 2X TV adapter unit mounted
Dimensions with the 0.5X TV adapter unit mounted
(Diff
eren
ce in
dim
ensio
n fro
m
the
case
whe
re n
o ad
apte
r len
s un
it is
used
: 18.
2mm)
(Diff
eren
ce in
dim
ensio
n fro
m
the
case
whe
re n
o ad
apte
r len
s un
it is
used
: 0m
m)
17.5
60.5
64.2
75
ø56 0
+0.05ø38
Intermediate image positionIntermediate image position
M20×0.5
2776
9527
8788.6
3253
.7
MAX130*
2776
2795
27
MAX78*136
* Where M Plan Apo 100X (378-815) is used
2776
9527
8788.6
3253
.7
MAX126*
M20×0.5
41.5
27
27
Mount unit
Intermediate lens tube
MAX77*136
* Where M Plan Apo NIR HR100X (378-864-5) is used
Workpiece surface
Workpiece surface
(Parfo
cal d
istan
ce)
Workpiece surface(Pa
rfoca
l dist
ance
)
(Parfo
cal d
istan
ce)
(Par
foca
l dist
ance
)
27
9576
2727
Workpiece surface
41.5
1520
.5
28
(Par
foca
ldi
stanc
e)
(Par
foca
ldi
stanc
e)
152.
524
7.5
9576
2727
Illuminated lens tube
41.5
27
20.568
.5
Main body
Main body
Vertical illumination unit with aperture diaphragm
Vertical illumination tube with aperture diaphragm
Analyzer
Polarizer
Analyzer
Cover ring
Polarizer
Workpiece surface
9576
2727
Workpiece surface
9
Dimensions of Optional Accessories for VMU Series
> Compact microscope unit with trinocular eyepiece tubeSuitable for observation of many different types of object: metal surfaces, semiconductors, LCDs, resins, etc.
> Compatible with YAG lasers (1064 nm, 532 nm, 355 nm and 266 nm)Suitable for cutting, trimming, repair and marking of IC wiring (Au, Al), removing and processing thin films (insulating film) and repair of color filters (defects repair). Also ideal as the microscope unit of a prober station for semiconductor substrates.
> Compatible with infrared optical systemsAvailable for inner observation of silicon package and spectral characteristics analysis by using infrared light source and camera.
> Available for various observations in bright field, dark field*, simplified polarized and differential interference contrast (DIC).*Made-to-order
> Telecentric reflective illumination system with aperture diaphragm.> High operability due to the inward turret design and long-working-distance objectives.
Features
SpecificationsStandard head type (w/short focus unit)
Model No. FS70Z (FS70Z-S) *1 FS70L (FS70L-S) FS70L4 (FS70L4-S)Order No. 378-165-1 (-2) 378-166-1 (-2) 378-167-1 (-2)
Tilting head typeModel No. FS70Z-TH *1 FS70L-TH FS70L4-THOrder No. 378-165-3 378-166-3 378-167-3
Observation BF/simplified polarized/DIC, erect image BF/simplified polarized, erect imageApplicable eyepiece (optional) 10X (field number 24), 15X (field number 16), 20X (field number 12),
Optical tube
Trinocular tube
Field number 24Puiple distance Siedentopf type, adjustment range: 51 to 76 mmTilt angle 0 to 20°, displacement of eye point: 114 mm (only for tilting head type)
Optical pass ratioEyepiece: Camera mount = 50%: 50%
(fixed)Eyepiece: Camera mount = 100%: 0% or 0%: 100% (switchable)
Camera mountC-mount with parfocal adjustment
(In combination with an optional adapter B)C-mount with parfocal adjustment and green
filter switchProtective filter — Laser cutting filter
Tube lens (correction range) 1- 2X zoom (visible) 1X (NUV - visible - NIR) 1X (UV - visible)
Laser portOptical features —
Magnification: 1X λ: 355/532/1064 μm
Magnification: 1X λ: 226/532 μm
Suitable YAG laser type*2 —
Fundamental, second and third-harmonic waves
Second and fourth-harmonic waves
Focus unitCoarse/fine feed Coaxial feeding knob (right and left), Coarse feed: 3.8 mm/rev., Fine feed: 0.1 mm/rev.Travel range 50 mm
Suitable turret (optional) 4-mount manual or 5-mount power turret 4-mount manual or 5-mount power turret
Suitable objective (optional)
For observation*3 M Plan Apo/HR/SL, G Plan Apo
For laser cutting —M/LCD Plan Apo NIR, M/LCD Plan Apo NUV
M Plan UV
Optical system of illumination Koehler reflective illumination with aperture diaphragmFiber-optic illuminator (optional) 12V/100W (378-700D), 12V/150W (178-316D)Loading capacity of camera mount Approx. 14kg (tilting head type: 13.2 kg) Approx. 13 kg (tilting head type: 13.1 kg)Mass (Dimension: Refer to page 28.) 6.6 kg (tilting head type: 7.4 kg) 6.7 kg (tilting head type: 7.5 kg)Mass 6.6 kg (-TH: 7.4 kg) 6.7 kg (-TH: 7.5 kg)
FS70Z FS70L FS70L4*Objectives and eyepieces shown mounted are optional.
*1: A FS70ZD type providing bright field/dark field observation is a available on special request.*2: When mounting a laser, ensure all safety precautions are observed and be aware of laser output power, beam energy density and the unit's
weight. Please consult Mitutoyo if in doubt.*3: M Plan Apo 1x objective should be used together with the polarizer (378-092 or 378-094).
Microscope UnitFS70 Series
FS70L(378-166-1)
FS70L4(378-167-1)
FS70L-TH(378-166-3)
FS70L4-TH(378-167-3)
FS70Z(378-165-1)
FS70Z-TH(378-165-3)
Polarizer*1
(378-094) P.12
Differential interference contrast unit(378-076, 378-078, 378-079, 378-080) P.12
P.26
X-Y stage (50×50mm)(378-020)
Simple stand(378-730)P.26
Transmitted light unit(378-736)P.26
Quintuple
Self-aligning motorized turretnosepiece unit (for BF)Quad (378-016)Quintuple (378-116) P.12
Self-aligning motorized turretnosepiece unit (for BF)(378-018) P.12
Quad AB
CD
E
0.5X TV adapter unit(375-054) P.12
Adapter B(378-042) P.12
Motorized focusing unit(378-061) P.12
Link cable 0.6m(12AAB283)
Third-party YAG lasers*3
Eyepieces P.25WF10×/24 (378-856)WF15×/16 (378-857)WF20×/12 (378-858)
*1: This unit is only applied to 1/2-inch or less CCD cameras.*2: Focusing unit A (378-705) can be attached to the simple stand (378-730).*3: Mitutoyo does not sell these lasers. Consult Mitutoyo for more information.*4: An adapter may separately be required when mounting any of these stages. Consult Mitutoyo for more information.
Fiber-optic illumination unit100W (378-700)
C-mount compat ib le ana log camera or d ig i ta l cameraExample : ImageX PRO 3000
150W (176-316)
P.26
Fiber-optic illumination unit100W (378-700)
150W (176-316)
P.26
12AAB251 ND212AAB252 ND812BAA583 GIF12BAA584 LB80
F i l ters ( for fiber-opt ic i l luminat ion unit No.378-700 )
12AAB251 ND212AAB252 ND812BAA583 GIF12BAA584 LB80
F i l ters ( for fiber-opt ic i l luminat ion unit No.378-700 )
ObjectivesM Plan Apo series (for observation): P.16 to 17
G Plan Apo series (for observation): P.17
M/LCD Plan Apo NIR series on P.20 (for fundamental/second harmonic laser machining): Used for L(for near-infrared observation): Used for L
M/LCD Plan Apo NUV series on P.21 (for second/third harmonic laser machining): Used for L
M Plan UV series on P.22 (for second/fourth harmonic laser machining): Used for L4
Third-party motorized X-Y stages (50×50mm) *4
Polarizer*2
(378-092) P.12
System diagram
11
378-016
Power focus device mounted on FS70Z with optional objectives
Console box
Console box
For simplified polarized-light observation. Also suitable for enhancing contrast of low-magnification objectives.
Used for mounting a C-mount camera.
Used for differential interference contrast observation in conjunction with the polarizer.
Allows observation over a wide field of view on the monitor (2X wide) due to the 0.5X relay optics. It is used in conjunction with the optional adapter B.
This unit is provided with a handy console box that is capable of external PC control. The power focus device is also retrofitable for the focus unit A/B for VMU series.
Manual turret Power turret
Power focusing unit
Polarizer
Adapter B
DIC unit
0.5X TV adapter unit
Order No. 378-116 378-016Observation method Bright fieldNo. of objective mounts 5, with centering adjustment 4View field adjustment ±0.5 mmPositioning accuracy 2σ=3 μm —
Durability (life-time)1 million repositioning
operations—
Drive method DC motorPower supply AC100V - 240V, 10WOutput interface RS-232C* for external PC controlCable length 3 m
Dimensions (WxHxD) and mass
Turret: 164 x 65 x 137 mm, 1.4 kg(378-116: 130 x 47 x 186 mm, 1.8 kg)
Console box: 108 x 72 x 193 mm, 810 g(378-116: 108 x 63 x 176 mm, 810 g)
Order No. 378-061Minimum travel 0.2 μmFeeding speed 1.6 mm/secDriving method Stepping motor, jog-shuttle controlsPower supply AC100V - 240V, 6WOutput interface RS-232C* for external PC controlCable length 3 m
Dimensions (WxHxD) and massFocus unit: ø 69 x L99 mm, 620 g
Console box: 108 x 87 x 201 mm, 2.4 kg
Order No. 378-018Observation method Bright fieldNo. of objective mounts 4, with centering and parfocal adjustment (378-018)View field adjustment ±0.5 mmParfocal adjustment ±0.5 mmMass 1.9 kg
Order No. Magnification378-076 100X, SL80X, SL50X378-078 50X, SL20X378-079 20X378-080 10X, 5X
For FS70Z378-092
378-042 Mass: 170g
378-054View field of image: ø 11 mmMass: 300 g
For FS70L • FS70L4378-094
ø45
ø38ø54
74.1
62.1
17.5
67.3
+0.050
Intermediate image positionIntermediate image position
122.
6
ø45 23
*Optional RS-232C Cable: 12AAA807
*Optional RS-232C Cable: 12AAA807
Optional Accessories for FS70
This objective adapter allows mounting the bright field objective on the bright/dark field turret (176-211 and 176-210) while maintaining the focus position (parfocal).Suitable bright field objectives:M Plan Apo/SL, G Plan Apo, M Plan Apo NIR, M Plan Apo NUV and M Plan UV
Manual turret Power turret
Tilting head type (Extension TH) Short focus unit type (Extension S)
Optional objective adapter: 378-026-1 Focus point adjust shim setOrder No.
378-089 For bright field turretThe focus point adjust shim set includes 50 μm, 30 μm and 20 μm thickness SUS rings
378-018 378-116
(Parfo
cal d
istan
ce)
Objective mounting surface
Intermediate image positionVertical travel
2525
451
355
79.6
31.5
93.4
212
82
154
MAX130
95
154
1153 (Mounting surface)(Mounting surface)
324154
293.
5
1
126.
589
.5
153 1
(157
.5)
(126.
5)(8
9.5)
68
(293
.5)
154324
153
Standard focusing unit mounting dimensions Manual focusing unit S mounting dimensions
ø50
(50.7)
ø111
A B C D E
(47)
(130)
Differences of FS70 models
13
Dimensions of Optional Accessories for FS70
> Microscope unit with the high-zoom functionCapable of continuous zooming from 100X to 4000X on a monitor (15”).
> Equipped with a unique sliding turret, to which an additional objective (optional) for laser applications, as well as the standard high-resolution objective (M Plan Apo HR 10X), can be attached.
> Compatible with YAG lasers (1064 nm, 532 nm, 355 nm and 266 nm)Available for cutting, trimming, repair and marking of IC wiring (Au, Al), removing and processing thin film (insulating film) and repair of colour filter (defects repair). Also ideal as the microscope unit of a prober station for semiconductor substrates.
> Compatible with infrared systemAvailable for internal observation of silicon packages and spectral characteristics analysis using an infrared source and camera.
> Available for simplified polarized and differential interference contrast (DIC)*. *Made-to-order
> Telecentric reflective illumination system with aperture diaphragm.
Features
Specifications
*Shown with optional stand and XY stage
Without binocular unit typeModel No. VMZ40M VMZ40M-L VMZ40R VMZ40R-L VMZ40R-L4Order No. 378-171 378-173 378-175 378-177 378-181
With binocular unit typeModel No. VMZ40M-B VMZ40M-BL VMZ40R-B VMZ40R-BL VMZ40R-BL4Order No. 378-172 378-174 378-176 378-178 378-182
Radiation range NUV - visible - NIR UV - visibleZoom type Manual Power drive
Observation BF, erect imageBF/DF/simplified
polarized/DIC, erect image
BF/simplified polarized, erect image
Main unit magnification 0.25X to 10X (zoom ratio: 40)Total magnification 100X to 4000X (when using standard 10X objective, 1/2” camera and 15” monitor)Observation range 1/2” camera: 2.56 x 1.92 mm to 0.064 x 0.048 mm, WF10X/24 eyepiece: ø 3.2 mm to ø 0.08 mm (when using standard 10X objective)Suitable eyepiece 10X (standard), 15X (optional), 20X (optional),
Suitable objectiveFor observation Standard: M Plan Apo HR 10X (NA: 0.42, WD: 15mm), Optional*1: M Plan Apo, G Plan ApoFor laser working (optional)
—M/LCD Plan Apo NIR, M/LCD Plan Apo NUV
—M/LCD Plan Apo NIR, M/LCD Plan Apo NUV
M Plan UV
Focusing unitCoarse/fine feed Coaxial feeding knob (right and left), Coarse feed: 3.8 mm/rev., Fine feed: 0.1 mm/rev.Travel range 50 mm
Turret 1-mount2-mount with centering
adjustment1-mount
2-mount with centering adjustment
2-mount with centering adjustment
Optical system of illumination Koehler reflective illumination with aperture diaphragmFiber-optic illuminator (optional) 12V/100W (378-700D), 12V/150W (178-316D)
Camera mountC-mount with centering and parfocal adjustment and green filter switch:*
*Only for VMZ40R-L4 and BL4Suitable camera 1/2” or smaller camera (C-mount compatible)Mass, *with binocular unit type(Dimension: Refer to page 29.)
6.5 kg/7.0 kg* 7.5 kg/8.0 kg* 7.0 kg/7.5 kg* 8.0 kg/8.5 kg* 7.5 kg (8.5 kg)
*1: Recommended magnification of objective: 2X to 50X
Zoom Video Microscope UnitVM-ZOOM
Main unit
No illumination unit installed (optional)
ObjectiveM Plan Apo HR 10×
Binocular tube (with eyepiece WF10X/24)
Main unit
Remote controller (with built-in illumination light source)
ObjectiveM Plan Apo HR 10×
Binocular tube (with eyepiece WF10X/24)
Laser portLaser port
Main unit (with laser port)
M Plan Apo series (for observation)* Compatible with all types on P.16 to 17.
G Plan Apo series (for observation)* Compatible with all types on P.17.
M/LCD Plan Apo NIR series *2
(for fundamental/second harmonic laser machining) P.20
M/LCD Plan Apo NUV series *2
(for second/third harmonic laser machining) P.21
M Plan UV series (for 40R-L4/BL4) *2
(for second/fourth harmonic laser machining) P.22
Remote controller (with built-in illumination light source)
ObjectiveM Plan Apo HR 10×
Binocular tube (with eyepiece WF10X/24)
WF15×/16 *1
378-857 P.25
WF20×/12 *1
378-858 P.25
Fiber-optic illumination unit100W 378-700150W 176-316 P.26(VMZ40M series)
12AAB251 ND212AAB252 ND812BAA583 GIF12BAA584 LB80
Simple stand378-730 P.26
X-Y stage (50×50mm)378-020 P.26
Polarizer378-069
indicates common specifications.
indicates model-specific specifications.
indicates optional specifications.
C-mount compatible analog or digital camera
Filters (for fiber-optic illumination unit No.378-700)
Camera mount for fixed-magnification observation *3
VMZ40M series
Near-infrared/visible/near-ultraviolet light correction
*1: Compatible with models equipped with a binocular tube.*2: Compatible with VMZ40 - L types (models equipped with a YAG laser). These types are recommended to use an objective with a magnification of 20X or 50X.*3: The current position of a workpiece being observed with a camera on the zoom side can be checked by using a laser optical system (with a built-in 1X tube lens).
This camera mount is compatible with VMZ40 - L types (models equipped with a YAG laser oscillator). Use a 2/3-inch or less analog or digital camera (with a C mount).
Visible/ultraviolet light correction
Objectives Eyepieces
VMZ40R series
VM-ZOOM40
System diagram
For simplified polarized observation.
Can be attached to the laser mount for a dual-camera system. It is compatible with a 2/3” or smaller C-mount camera.
Polarizer Camera mount
17.5
60.5
64.2
75
ø56ø38+0.05
0
Intermediate image positionIntermediate image position
Without binocular unit typeModel No. VMZ40M VMZ40M-L VMZ40R VMZ40R-L VMZ40R-L4Order No. 378-171 378-173 378-175 378-177 378-181
With binocular unit typeModel No. VMZ40M-B VMZ40M-BL VMZ40R-B VMZ40R-BL VMZ40R-BL4Order No. 378-172 378-174 378-176 378-178 378-182
Radiation range NUV - visible - NIR UV - visibleZoom type Manual Power drive
Observation BF, erect imageBF/DF/simplified
polarized/DIC, erect image
BF/simplified polarized, erect image
Main unit magnification 0.25X to 10X (zoom ratio: 40)Total magnification 100X to 4000X (when using standard 10X objective, 1/2” camera and 15” monitor)Observation range 1/2” camera: 2.56 x 1.92 mm to 0.064 x 0.048 mm, WF10X/24 eyepiece: ø 3.2 mm to ø 0.08 mm (when using standard 10X objective)Suitable eyepiece 10X (standard), 15X (optional), 20X (optional),
Suitable objectiveFor observation Standard: M Plan Apo HR 10X (NA: 0.42, WD: 15mm), Optional*1: M Plan Apo, G Plan ApoFor laser working (optional)
—M/LCD Plan Apo NIR, M/LCD Plan Apo NUV
—M/LCD Plan Apo NIR, M/LCD Plan Apo NUV
M Plan UV
Focusing unitCoarse/fine feed Coaxial feeding knob (right and left), Coarse feed: 3.8 mm/rev., Fine feed: 0.1 mm/rev.Travel range 50 mm
Turret 1-mount2-mount with centering
adjustment1-mount
2-mount with centering adjustment
2-mount with centering adjustment
Optical system of illumination Koehler reflective illumination with aperture diaphragmFiber-optic illuminator (optional) 12V/100W (378-700D), 12V/150W (178-316D)
Camera mountC-mount with centering and parfocal adjustment and green filter switch:*
*Only for VMZ40R-L4 and BL4Suitable camera 1/2” or smaller camera (C-mount compatible)Mass, *with binocular unit type(Dimension: Refer to page 29.)
6.5 kg/7.0 kg* 7.5 kg/8.0 kg* 7.0 kg/7.5 kg* 8.0 kg/8.5 kg* 7.5 kg (8.5 kg)
378-087Mass: 180 g
378-069Mass: 115 g
15
> Infinity corrected > Bright field observation > Long working distance > Plan-Apochromat
Features
Dimensions
Order No. Mag. N.A. W.D. (mm)f (mm)
(λ=550 nm)R (μm)
(λ=550 nm)±DOF(μm)
Real FOV (mm)Mass (g)
ø 24 eyepiece 1/2” camera378-800-3*1 1X 0.025 11.0 200 11.0 440 ø 24 4.8 x 6.4 300378-801-6*2 2X 0.055 34.0 100 5.0 91 ø 12 2.4 x 3.2 220378-802-6 5X 0.14 34.0 40 2.0 14.0 ø 4.8 0.96 x 1.28 230378-807-3 7.5X 0.21 34.0 26.67 1.3 6.2 ø 3.6 0.64 x 0.85 240378-803-3 10X 0.28 34.0 20 1.0 3.5 ø 2.4 0.48 x 0.64 240378-804-3 20X 0.42 20.0 10 0.7 1.6 ø 1.2 0.24 x 0.32 270378-805-3 50X 0.55 13.0 4 0.5 0.9 ø 0.48 0.10 x 0.13 290378-806-3 100X 0.70 6.0 2 0.4 0.6 ø 0.24 0.05 x 0.06 320378-788-4*3 10X 0.42 15.0 20 0.7 1.60 ø 2.4 0.48 x 0.64 460378-814-4 50X 0.75 5.2 4 0.4 0.49 ø 0.48 0.10 x 0.13 400378-815-4 100X 0.90 1.3 2 0.3 0.34 ø 0.24 0.05 x 0.06 410
11(Working distance)
1/4 Retardation plate
ø34
ø38
ø41
8495 (Parfocal distance)5
34
ø34
ø22
ø25
6195 (Parfocal distance)5
1.6
ø32.
2
35ø34
ø22
ø25
6095 (Parfocal distance)5
1.6
ø32.
2
20ø34
ø23.
8
ø25.
2
7595 (Parfocal distance)5
4.4ø3
2.2
13
ø34
ø21.
5
ø25.
2
8295 (Parfocal distance)5
4.6
ø32.
2
6
ø34
ø17.5
ø25.
2
8995 (Parfocal distance)5
4.5
ø32.
234ø3
4
ø24.
5
ø27.
5
6195 (Parfocal distance)5
1.6
ø32.
2
M Plan Apo 1X M Plan Apo 10X
M Plan Apo 20XM Plan Apo 2X
M Plan Apo 50XM Plan Apo 5X
M Plan Apo 100XM Plan Apo 7.5X
(Working distance)
(Working distance)
(Working distance)
33.5ø34
ø24
ø25
61.595 (Parfocal distance)5
2.2
ø32.
2
(Working distance)
(Working distance)
(Working distance)
(Working distance)
M Plan Apo HR 10X
80
(Working distance)15
5 95 (Parfocal distance)
ø39
ø37
ø26
5.2
ø34
ø19
89.895 (Parfocal distance)5
1
ø32.
2
M Plan Apo HR 50X(Working distance)
1.3ø3
4
ø10.4
93.795 (Parfocal distance)5
1.2
ø32.
2
M Plan Apo HR 100X(Working distance)
Specifications
*1: It should be used together with an appropriate polarizer for the microscope used.*2: It is recommended to be used together with the 1/4 wavelength plate A (02ALN370) and appropriate polarizer for the microscope
used. (W.D.: 95.5mm, f: 30.0 mm)*3: The specifications of this objective are as in the use with VM-ZOOM.N.A.: Numerical aperture W.D.: Working distance f: Focal length R: Resolving power DOF: Depth of field FOV: Real field of view
Objectives for Bright Field Observation (long working distance)
M Plan Apo / M Plan Apo HRVMU FS70 FS300MF-U Hyper MF-U VM-ZOOM
Objectives for Bright Field Observation (with glass-thickness compensation)
G Plan ApoVMU FS70 FS300MF-U Hyper MF-U VM-ZOOM
> Infinity corrected > Bright field observation > Ultra-long working distance > Plan Apochromat
> Infinity corrected > Bright field observation > Ultra-long working distance > Plan Apochromat> Designed to observe a specimen through glass 3.5 mm thick.
Features
Features
Dimensions
Dimensions
Order No. Mag. N.A. W.D. (mm)f (mm)
(λ=550 nm)R (μm)
(λ=550 nm)±DOF(μm)
Real FOV (mm)Mass (g)
ø 24 eyepiece 1/2” camera378-810-3 20X 0.28 30.5 10 1.0 3.5 ø 1.2 0.24 x 0.32 240378-811-3 50X 0.42 20.5 4 0.7 1.6 ø 0.48 0.10 x 0.13 280378-812-3 80X 0.50 15.0 2.5 0.6 1.1 ø 0.3 0.06 x 0.08 280378-813-3 100X 0.55 13.0 2 0.5 0.9 ø 0.24 0.05 x 0.06 290378-816-3 200X 0.62 13.0 1 0.4 0.7 ø 0.12 0.025 x 0.03 490
Order No.Mag./glass thickness
(mm)N.A. W.D. (mm)
f (mm)(λ=550 nm)
R (μm)(λ=550 nm)
±DOF(μm)
Real FOV (mm)Mass (g)
ø 24 eyepiece 1/2” camera378-847 20X/t3.5 0.28 29.42 10 1.0 3.5 ø 1.2 0.24 x 0.32 270
378-848-3 50X/t3.5 0.50 13.89 4 0.6 1.1 ø 0.48 0.10 x 0.13 320
M Plan Apo SL20X M Plan Apo SL80X
M Plan Apo SL50X M Plan Apo SL100X
M Plan Apo SL200X30.5ø3
4
ø23.
5
ø25.
2
64.595 (Parfocal distance)5
1.2
ø32.
2
20.5ø34
ø24.
2
ø25.
2
74.595 (Parfocal distance)5
3.9
ø32.
2
15
ø34
ø21.
6
ø25.
2
8095 (Parfocal distance)5
2.5
ø32.
2
ø39
8295 (Parfocal distance)5
130.5
ø27
ø29.
4
ø37
13ø34
ø22
ø25.
2
8295 (Parfocal distance)5
4.6
ø32.
2
(Working distance)
(Working distance)
(Working distance) (Working distance)
(Working distance)
G Plan Apo 20X G Plan Apo 50X30.6ø3
4
ø24
ø25
65.5996.19
Glass5
1.58
ø32.
2
15.08ø34
ø23
ø25
81.1196.195
1.6
ø32.
2
(Working distance) : Glass thickness 3.5mm (Working distance) : Glass thickness 3.5mm
Glass
Specifications
Specifications
N.A.: Numerical aperture W.D.: Working distance f: Focal length R: Resolving power DOF: Depth of field FOV: Real field of view
17
Objectives for Bright Field Observation (ultra-long working distance)
M Plan Apo SLVMU FS70 FS300MF-U Hyper MF-U VM-ZOOM
> Infinity corrected> Bright/dark field observation
Suited to the observation of scratches, concavity and convexity on a surface
> Long working distance> Plan Apochromat
Features
Dimensions
Order No. Mag. N.A. W.D. (mm)f (mm)
(λ=550 nm)R (μm)
(λ=550 nm)±DOF(μm)
Real FOV (mm)Mass (g)
ø 24 eyepiece 1/2” camera378-831-7*1 2X 0.055 34.0 100 5.0 91 ø 12 2.4 x 3.2 340378-832-7 5X 0.14 34.0 40 2.0 14.0 ø 4.8 0.96 x 1.28 350378-830-7 7.5X 0.21 34.0 26.67 1.3 6.2 ø 3.6 0.64 x 0.85 350378-833-7 10X 0.28 34.0 20 1.0 3.5 ø 2.4 0.48 x 0.64 350378-834-7 20X 0.42 20.0 10 0.7 1.6 ø 1.2 0.24 x 0.32 400378-835-7 50X 0.55 13.0 4 0.5 0.9 ø 0.48 0.10 x 0.13 440378-836-7 100X 0.70 6.0 2 0.4 0.6 ø 0.24 0.05 x 0.06 460378-845-7 50X 0.75 5.2 4 0.4 0.49 ø 0.48 0.10 x 0.13 530378-846-7 100X 0.90 1.3 2 0.3 0.34 ø 0.24 0.05 x 0.06 545
BD Plan Apo 2X
BD Plan Apo 20XBD Plan Apo 5X
BD Plan Apo 50XBD Plan Apo 7.5X
BD Plan Apo 10X BD Plan Apo 100X
34
ø44
ø37
ø40
6195 (Parfocal distance)5
4
ø42
34
ø44
ø37
ø40
6195 (Parfocal distance)5
4
ø42
34
ø44
ø37
ø40
6195 (Parfocal distance)5
4
ø42
34
ø44
ø37
ø40
6195 (Parfocal distance)5
4
ø42
20
ø44
ø32
ø40
7595 (Parfocal distance)5
7
ø42
13
ø44
ø32
ø40
8295 (Parfocal distance)5
7
ø42
6
ø44
ø31.
5
ø40
8995 (Parfocal distance)5
8.5
ø42
(Working distance)
(Working distance)
(Working distance)
(Working distance) (Working distance)
(Working distance)
(Working distance)BD Plan Apo HR 50X
5.2
ø44
ø32
ø40
89.995 (Parfocal distance)5
4.8
ø42
(Working distance)
BD Plan Apo HR 100X
1.3
ø44
ø32
ø40
93.795 (Parfocal distance)5
4.7
ø42
(Working distance)
Specifications
*1: Recommended to be used together with the 1/4 wavelength plate A (02ALN380) and appropriate polarizer for the microscope used. (W.D.: 95.5 mm, f: 30.0 mm)N.A.: Numerical aperture W.D.: Working distance f: Focal length R: Resolving power DOF: Depth of field FOV: Real field of view
Objectives for Bright/Dark Field Observation (long working distance)
BD Plan Apo / BD Plan Apo HR(FS70)FS300MF-U Hyper MF-U
> Infinity corrected> Bright/dark field observation
Suited to the to observation of scratches, concavity and convexity on a surface> Ultra-long working distance> Plan-Apochromat
Features
Dimensions
Order No. Mag. N.A. W.D. (mm)f (mm)
(λ=550 nm)R (μm)
(λ=550 nm)±DOF(μm)
Real FOV (mm)Mass (g)
ø 24 eyepiece 1/2” camera378-840-7 20X 0.28 30.5 10 1.0 3.5 ø 1.2 0.24 x 0.32 350378-841-7 50X 0.42 20.5 4 0.7 1.6 ø 0.48 0.10 x 0.13 410378-842-7 80X 0.50 15.0 2.5 0.6 1.1 ø 0.3 0.06 x 0.08 430378-843-7 100X 0.55 13.0 2 0.5 0.9 ø 0.24 0.05 x 0.06 440
BD Plan Apo SL20X
30.5
ø44
ø31
ø40
64.595 (Parfocal distance)5
7.5
ø42
(Working distance)
BD Plan Apo SL50X
20
ø44
ø32
ø40
7595 (Parfocal distance)5
8
ø42
(Working distance)
BD Plan Apo SL80X
13ø4
4
ø32
ø40
8295 (Parfocal distance)5
8.5
ø42
(Working distance)
BD Plan Apo SL100X
13
ø44
ø32
ø40
8295 (Parfocal distance)5
8.5ø4
2
(Working distance)
Specifications
19
Objectives for Bright/Dark Field Observation (ultra-long working distance)
BD Plan Apo SL(FS70)FS300MF-U Hyper MF-U
> Infinity corrected > Suitable for bright field observation and laser applications > Long working distance > Plan Apochromat > Wavelength correction from visible to near-infrared (1800nm) > Available high-power type (M Plan Apo NIR HR)
Near-infrared radiation range objectives for bright field observation (with glass-thickness compensation)
LCD Plan Apo NIR> Infinity corrected > Suitable for bright field observation and laser applications > Long working distance > Plan Apochromat > Performance optimized for visible to near-infrared (1800 nm) wavelengths> Designed to observe a specimen through glass 1.1 mm or 0.7 mm thick.
Features
Features
Dimensions
Dimensions
Order No. Mag. N.A. W.D. (mm)f (mm)
(λ=550 nm)R (μm)
(λ=550 nm)±DOF(μm)
Real FOV (mm)Mass (g)
ø 24 eyepiece 1/2” camera378-822-5 5X 0.14 37.5 40 2.0 14.0 ø 4.8 0.96 x 1.28 220378-823-5 10X 0.26 30.5 20 1.1 4.1 ø 2.4 0.48 x 0.64 250378-824-5 20X 0.40 20.0 10 0.7 1.7 ø 1.2 0.24 x 0.32 300378-825-5 50X 0.42 17.0 4 0.7 1.6 ø 0.48 0.10 x 0.13 315378-826-5 100X 0.50 12.0 2 0.6 1.1 ø 0.24 0.05 x 0.06 335378-863-5 50X 0.65 10.0 4 0.4 0.7 ø 0.48 0.10 x 0.13 450378-864-5 100X 0.70 10.0 2 0.4 0.6 ø 0.24 0.05 x 0.06 450
Order No.Mag./glass
thickness (mm)N.A.
W.D. (mm)
f (mm)(λ=550 nm)
R (μm)(λ=550 nm)
±DOF(μm)
Real FOV (mm)Mass (g)
ø 24 eyepiece 1/2” camera378-827-5 20X/t1.1 0.40 19.98 10 0.7 1.7 ø 1.2 0.24 x 0.32 305378-829-5 50X/t0.7 0.42 17.26 3.9 0.7 1.6 ø 0.48 0.10 x 0.13 320378-725-5* 100X/t1.1 0.50 12.13 2 0.6 1.1 ø 0.24 0.05 x 0.06 335378-754-5 100X/t0.7 0.50 11.76 2 0.6 1.1 ø 0.24 0.05 x 0.06 335
37.5ø34
ø24.
6
ø25
57.595 (Parfocal distance)5
0.4
ø32.
2
30.5ø34
ø24.
6
ø25.
2
64.595 (Parfocal distance)5
1
ø32.
2
20ø34
ø24.
4
ø24.
8
7595 (Parfocal distance)5
0.6
ø32.
2
17ø34
ø24.
4
ø25
7895 (Parfocal distance)5
0.4
ø32.
2
12ø34
ø24.
6
ø25
8395 (Parfocal distance)5
0.5
ø32.
2
M Plan Apo NIR 5X
M Plan Apo NIR 50XM Plan Apo NIR 10X
M Plan Apo NIR 100XM Plan Apo NIR 20X
(Working distance)
(Working distance)
(Working distance)10ø3
9
ø27.
6
ø28
8595 (Parfocal distance)5
0.3
ø37
M Plan Apo NIR HR 50X/100X(Working distance)
(Working distance)(Working distance)
LCD Plan Apo NIR 20X (t1.1) LCD Plan Apo NIR 100X (t1.1)/ (t0.7)LCD Plan Apo NIR 50X (t1.1)/ (t0.7)
20.35ø34
ø24.
6
ø25
75.0295.375
0.6
ø32.
2
17.5ø34
ø24.
4
ø25
77.87/77.7495.37/95.245
0.5
ø32.
2
(Working distance) (Working distance)12.5/12
(Working distance)
ø34
ø24.
4
ø25
82.87/83.2495.37/95.245
0.6/1
ø32.
2
Specifications
Specifications
Note: If the wavelength used is 1100nm or longer, the focal point may deviate slightly from that in visible radiation.
*Made-to-orderN.A.: Numerical aperture W.D.: Working distance f: Focal length R: Resolving power DOF: Depth of field FOV: Real field of view
Near-infrared Radiation Range Objectives for Bright Field Observation
M Plan Apo NIRVMU FS70 FS300 VM-ZOOM
VMU FS70 FS300 VM-ZOOM
> Infinity corrected > Suitable for bright field observation and laser applications > Long working distance > Plan Apochromat > Performance optimized for near-ultraviolet (355nm) to visible > High-power type available (M Plan Apo NUV HR)
Near-ultraviolet radiation range objectives for bright field observation (with glass-thickness compensation)
LCD Plan Apo NUV VMU FS70 VM-ZOOM
> Infinity corrected > Suitable for bright field observation and laser applications > Long working distance > Plan Apochromat > Wavelength correction from near-ultraviolet (355nm) to visible> Designed to observe a specimen through glass 1.1mm or 0.7mm thick.
Features
Features
Dimensions
Dimensions
Order No. Mag. N.A. W.D. (mm)f (mm)
(λ=550 nm)R (μm)
(λ=550 nm)±DOF(μm)
Real FOV (mm)Mass (g)
ø 24 eyepiece 1/2” camera378-809-5 10X 0.28 30.5 20 1 3.5 ø 2.4 0.48 x 0.64 255378-817-4 20X 0.40 17.0 10 0.7 1.7 ø 1.2 0.24 x 0.32 340378-818-4 50X 0.42 15.0 4 0.7 1.6 ø 0.48 0.10 x 0.13 350378-819-4 100X 0.50 11.0 2 0.6 1.1 ø 0.24 0.05 x 0.06 380378-888-4 50X 0.65 10.0 4 0.42 0.65 ø 0.48 0.10 x 0.13 500
Order No.Mag./glass thickness
(mm)N.A. W.D. (mm)
f (mm)(λ=550 nm)
R (μm)(λ=550 nm)
±DOF(μm)
Real FOV (mm)Mass (g)
ø 24 eyepiece 1/2” camera
378-753-4* 50X/t1.1 0.42 14.53 4 0.7 1.6 ø 0.48 0.10 x 0.13 310378-820-4 50X/t0.7 0.42 14.76 4 0.7 1.6 ø 0.48 0.10 x 0.13 310378-751-4* 100X/t1.1 0.50 11.03 2 0.6 1.1 ø 0.24 0.05 x 0.06 380
M Plan Apo NUV 10X
M Plan Apo NUV 100XM Plan Apo NUV 20X
M Plan Apo NUV HR 50XM Plan Apo NUV 50X
(Working distance)
(Working distance)
(Working distance)
15ø34
ø34
ø24.
4
ø25
8095 (Parfocal distance)5
2.6
ø32.
2
17ø34
ø24
ø25
7895 (Parfocal distance)5
64.595 (Parfocal distance)5
1.6
(Working distance)30.50.5
ø32.
2
ø25.
2
ø32.
2
11ø34
ø23.
4
ø24.
4
8495 (Parfocal distance)5
1.7
ø32.
2
10ø39
ø27.
6
ø28
8595 (Parfocal distance)5
0.3
ø37
(Working distance)
LCD Plan Apo NUV 50X (t1.1)/ (t0.7)(Working distance)
14.9/15ø34
ø24.
4
ø25
80.47/80.295.37/95.2 (Parfocal distance)5
2.6
ø32.
2
LCD Plan Apo NUV 100X (t1.1)11.4ø3
4
ø23.
4
ø24.
4
83.9795.37 (Parfocal distance)5
1.5
ø32.
2
Specifications
Specifications
*Made-to-orderN.A.: Numerical aperture W.D.: Working distance f: Focal length R: Resolving power DOF: Depth of field FOV: Real field of view
21
Near-ultraviolet Radiation Range Objectives for Bright Field Observation
M Plan Apo NUVVMU FS70 VM-ZOOM
Dimensions
Order No. Mag. N.A. W.D. (mm)f (mm)
(λ=266 nm)f (mm)
(λ=550 nm)R (μm)
(λ=550 nm)±DOF(μm)
Real FOV (mm)Mass (g)
ø 24 eyepiece 1/2” camera378-844-5 10X 0.25 20.0 20 20.3 1.1 4.4 ø 2.4 0.48 x 0.64 310378-837-5 20X 0.36 15.0 10 10.4 0.8 2.1 ø 1.2 0.24 x 0.32 330378-838-5 50X 0.40 12.0 4 4.5 0.7 1.7 ø 0.48 0.10 x 0.13 400378-839-5 80X 0.55 10.0 2.5 2.9 0.5 0.9 ø 0.3 0.05 x 0.08 380
M Plan UV 10X
M Plan UV 20X
M Plan UV 50X
M Plan UV 80X23 15
ø34
80 15 (Working distance)
95 (Parfocal distance)5
ø32.
2
23 15
ø34
83 12 (Working distance)
95 (Parfocal distance)5
ø32.
2
23 15
ø34
85 10 (Working distance)
95 (Parfocal distance)5
ø32.
2
23 15ø3
4
75 20 (Working distance)
95 (Parfocal distance)5
ø32.
2
Specifications
Mitutoyo’s long working-distance objectives are grouped by working wavelength range: ultraviolet, near-ultraviolet, visible, and near-infrared. The M Plan UV series (for ultraviolet), M Plan Apo NUV series (for near-ultraviolet), and M Plan Apo NIR series (for near-infrared) are designed especially for YAG laser working applications in cutting thin films. Each series is designed for optimal spectral transmission factor within its respective wavelength range.
N.A.: Numerical aperture W.D.: Working distance f: Focal length R: Resolving power DOF: Depth of field FOV: Real field of view
100
80
60
40
20
0300 600 900 1200 1500
M Plan Apo NIR 100xM Plan Apo SL 100xM Plan Apo NUV 100x
1800Wavelength (nm)
Spec
tral t
rans
miss
ion
fact
or (%
)
Wavelength (nm)
Spec
tral t
rans
miss
ion
fact
or (%
)
Spectral transmission characteristics of 100X objective Spectral transmission characteristics of M Plan UV 80X100
80
60
40
20
0200 300266 550400 500 600 700 800
Reference: Transmission of Mitutoyo Objectives
> Infinity corrected> Suitable for bright field observation and laser applications> Long working distance > Plan Apochromat> Performance optimized for ultraviolet (266nm) and visible wavelengths> High-transmittance in the ultraviolet range
Features
Note: When projecting a mask image on a specimen by using a YAG laser system mounted on a Mitutoyo microscope unit, the mask image will be scaled by the factor f/200 times (f=200mm, Mitutoyo tube lens). Since the focal length (f) in ultraviolet radiation (λ=266 nm) is slightly smaller than that in visible radiation (λ=550 nm) as above, the working area in ultraviolet radiation also becomes slightly smaller than the mask image in visible radiation.
M (BD) Plan Apo series: Wavelength range 436 nm to 656 nm
M Plan Apo NIR series: Wavelength range 480 nm to 1800 nm
M Plan Apo NUV series: Wavelength range 355 nm to 620 nm
M Plan UV series: Optimized for wavelengths of 266 nm and 550 nm
Ultraviolet Radiation Range Objectives for Bright Field Observation
M Plan UVVMU FS70 VM-ZOOM
MT-1, 2, 40: Visible wavelength range (435.8 – 656.3 nm)MT-L: Near-ultraviolet (355 nm) to near-infrared (1064 nm)MT-L4: Ultraviolet (266 nm) to visible (620 nm).
Aberration correction range
Dimensions
ø35
ø33g 6 −0.009−0.025
134
3.5
3.5
Main
uni
t
ø33g 6 −0.009−0.025
Main
uni
t
3M3
2×0.
5 Mou
nting
ring
M3
2×0.
5 Mou
nting
ring
MT-L
ø35
134
3.5
3.5 3
MT-L4
ø35ø35 ø35ø35
95 (P
arfoc
al dis
tance
)
25Workpiece’s side focal position
95 (P
arfoc
al dis
tance
)
Workpiece’s side focal position
225.
817
6.4
23.6
226.
517
6.4
Half-reflecting mirror(for reflectedillumination)
Workpiece’s side focal position
Workpiece’s side focal position
95(Pa
rfoca
l dist
ance
)76
.5
95(Pa
rfoca
l dist
ance
)76
.5
166.
4
MT-1
Intermediateimage position
ø363-2.4mm through holes(evenly separated at 120°)
3-2.4mm through holes(evenly separated at 120°)
240.
2
284.
5ø30 -0.01-0.05 ø30 -0.01
-0.05
16.4
Workpiece surface
Workpiece’s side focal position
95 (P
arfo
cal d
istan
ce)
704.
2 243.
31
MT-2
Intermediateimage position
Intermediateimage position
Intermediateimage position
Intermediateimage position
ø36
240.
2
29.5
2.5
16.4
ø34
ø21
12.5
±1.5
1526
thre
ads 3
6Re
fer t
o JIS
B71
41.
26 th
read
s 36
Refe
r to
JIS B
7141
.
MT-40
170
Objective mounting position (see below)
Workpiece surface
Objective mounting position (see below)
Workpiece surface
Objective mounting position (see below)
Workpiece surface
Half-reflecting mirror(for reflectedillumination)
Objective mounting position (see below)
Workpiece surface
Specifications
Reference: Placement of Objective and Tube LensMitutoyo’s long working-distance objective lenses are designed to cover a field of view of up to ø30mm (ø24mm), when the tube lens 970208 or 970209 (378-008, 378-009 or 378-010) is placed at the specified distance from the objective. However, use the following formula to calculate the approximate distance, when a distance other than that as specified is required in order to insert your own optical system or other optical elements:
ø
f2
ø2
ø1f1
NA
Image field
Tube lens
Objective
Workpiece surface
Example: What is the distance (L), when using M Plan Apo 10X* (378-803-3) and tube lens** (970208) to cover an image field of ø24?
*f=20 mm, N.A.=0.28 (Refer to page 15.) **ø2=24 mm, f2=200 mm (Refer to the above chart.)
From formula (2): ø1=2x20x0.28=11.2 (mm)
From formula (1): L=(24−11.2)x200/24=106.6 (mm)
Therefore a distance (L) up to 106 mm can cover an image field of ø 24 without shading.
In other words a distance (L) smaller than the specification does not affect optical performance. Contact Mitutoyo for detailed information.
Order No. Focal length (mm) Magnification (tube lens) Image field (mm) Effective lens dia. (mm) Dimensions (mm) Mass (g)970208 200 1X ø 30 ø 24.0 ø 40 x 32.5 43970209 400 2X ø 30 ø 18.0 ø 40 x 32.0 42378-010 200 1X ø 24 ø 11.2 ø 34 x 27.5 45378-008 200 1X ø 24 ø 22.0 ø 35 x 32.0 30378-009 200 1X ø 24 ø 23.0 ø 35 x 30.6 30
Note: A distance of 76.5mm in 970208 and 970209 drawings is for an image field of ø30 (without vignetting). For an image field of ø 24 or ø 11 (the latter is the image field of a 2/3-inch camera), use the formula (1) and (2) below to calculate the distance.
= (ø2– ø1) • f2 /ø [mm] ·························(1)
ø1 = 2 • f • N.A. [mm] ·····························(2)
ø1 : Objective exit pupil diameter (mm)ø2 : Effective diameter of tube lens (mm)f2 : Focal length of tube lensø : Image field diameter
23
Tube LensMT
> Finite-correction (image-object distance: 280mm, parfocal length: 110 mm) > Bright field observation > Long working distance > Telecentric for lenses lower than 10X magnification
Objectives for Centering MicroscopesCF CF
> Finite-correction (image-object distance: 280 mm, parfocal length: 110 mm)> Bright field observation > Long working distance > Available zoom type
Features
Features
Dimensions
Dimensions
Order No. Mag. N.A. W.D. (mm)R (μm)
(λ=550 nm)±DOF (μm)
Real FOV (mm)Mass (g)
ø 24 eyepiece 1/2” camera375-036-2 1X 0.03 61.0 9.2 306 ø 24 4.8 x 6.4 80375-037-1 3X 0.09 77.0 3.06 34 ø 8 1.6 x 2.1 55375-034-1 5X 0.13 61.0 2.12 16.3 ø 4.8 0.96 x 1.28 60375-039 10X 0.21 51.0 1.31 6.2 ø 2.4 0.48 x 0.64 95375-051 20X 0.42 20.0 0.65 1.6 ø 1.2 0.24 x 0.32 310375-052 50X 0.55 13.0 0.5 0.9 ø 0.48 0.10 x 0.13 350375-053 100X 0.70 6.0 0.4 0.6 ø 0.24 0.05 x 0.06 380
Order No. Mag. N.A. W.D. (mm)R (μm)
(λ=550 nm)±DOF (μm)
Real FOV (mm)Mass (g)
ø 24 eyepiece 1/2” camera375-031 1X 0.03 73.7 9.2 306 ø 24 4.8 x 6.4 45375-032 2X 0.06 92.0 4.6 76 ø 12 2.4 x 3.2 35375-033 3X 0.07 77.8 3.9 56 ø 8 1.6 x 2.1 35
375-038(zoom lens)
1X 0.0450.0
6.9 171 ø 24 4.8 x 6.42003X 0.1 2.75 27 ø 8 1.6 x 2.1
5X 0.1 2.75 27 ø 4.8 0.96 x 1.28
ML 20X
ML 50X
ML 100X
ø33
14.590110
(Parfocal distance)
ø39
ø33
ø39
ø33
ø39
2014.1
104
110(Parfocal distance)
6
14.797110
(Parfocal distance)
13
ø30
ø30
ø28
ø25
33
10
ø30
ø18
ø16.
5ø3
0
ø31.
5
49 61 (Working distance)
110(Parfocal distance)
10
77 (Working distance)
110(Parfocal distance)
ø17
ø30
49 61 (Working distance)
110(Parfocal distance)
10ø2
5ø2
8
ML 5X
ML 3X
ML 1X
ML 10X
ø14.
5
10
59 51 (Working distance)
110(Parfocal distance)
51 (Working distance)
CF 1X CF 2X CF 3X CF Zoom 1X - 5X
36.3 73.7 (Working distance)
110 (Parfocal distance)
5
ø30
ø25
ø26
18 92 (Working distance)
110(Parfocal distance)
12
ø30
ø25
ø22
32.2 77.8 (Working distance)
110(Parfocal distance)
5
ø30
ø25
60
110(Parfocal distance)
11.5
ø34
ø25
ø21.
5
ø37.
2
50 (Working distance)50 (Working distance)
Specifications
Specifications
N.A.: Numerical aperture W.D.: Working distance R: Resolving power DOF: Depth of field FOV: Real field of view
Objectives for Measuring MicroscopesML
MF Hyper MF
> Fitted to the eyepiece at the intermediate image position for simple measurement. *Not available for UWF 10X
> Outside diameter of 25 mm and thickness of 1 mm> Reticle line widths: 10 μm (516577: 7 μm)
Features
Features
Dimensions
Dimensions
Order No. (2pcs.) Magnification Field number Visibility adjustment Eye point Reticle Mass (g)378-851 10X 30 -8D to +4D High eye point — 250378-856 10X 24 -10D to +5D High eye point Available 45378-857 15X 16 -8D to +5D Normal Available 35378-858 20X 12 -8D to +5D Normal Available 35
Order No. 516848 516576 516578 516577 516849 516850 516851
Remarks 90° full lines 90°, 60° chain linesCrosshairs, one line
graduated(P=0.1/20 mm)
Concentric circles with crosshairs
(P=ø1.2/ø1.2 - 18 mm)
Graduation marks(P=0.1/10 mm)
Graduation marks(P=0.05/5 mm)
Grids(P=1 mm/10 mm
square)
WF 2
0×/1
2
WF 1
5×/1
6
WF 1
0×/2
4
ø30
ø38
ø35 ø41.
4
10104 3.5 Intermediate image position
Intermediate image position
Intermediate image position
43.9
10X eyepiece10X eyepiece
17
Intermediate image position Eye pointEye point
Diopter adjustment range
ø30
ø38
ø35
10
22.2
15X eyepiece
17
Eye point
ø30
ø38
ø32
10
14.6
20X eyepiece
17
Eye point
WF 10X/24UWF 10X/30 WF 15X/16 WF 20X/12
-0.0
2-0
.05
Specifications
Specifications
ReticlesFS70 FS300
No.516848 No.516576 No.516578 No.516577 No.516849 No.516850 No.516851
1009080706050403020100
25
Wide Field of View Eyepieces and ReticlesWF / UWF
Hyper MFMF FS70 FS300MF-U Hyper MF-U
> Wide field of view, especially the UWF 10X type (30 field number)> External focusing system* allows installing an optional reticle. *Except for UWF 10X
Stand with XY stage and stage illumination unit mounted on FS70Z with optional objectives and eyepieces
For mounting the VMU, FS70, or VM-ZOOM microscope unit. Can be com-bined with an XY stage, stage illumination unit and fiber-optic illuminator to work as a compact microscope for surface observation.
Attaches to the stand to provide contour illumination in conjunction with a fiber-optic illuminator (100W or 150W).
Stand XY stage
Fiber-optic illuminator (100W)
Fiber-optic illuminator (150W)
Stage illumination unit
Order No. 378-020Travel range 50 x 50 mmHandle feed 34 mm/rev.Mass 3.3 kg
Order No. 378-700DLight source 12V/100W parabolic-type halogen bulb (517181), 100h service lifeLight guide Fiber-optic cable (1.5 m length, 5 mm dia.)Brightness Adjustable by volumn
Filter (optional)
LB80 Color temperature conversion filter (12BAA584)ND2 For 1/2 light intensity (12AAB251)ND8 For 1/8 light intensity (12AAB252)GIF Green filter (12BAA253)
Order No. 176-316D
Light source
Long-life type15V/100W parabolic-type halogen bulb (12BAJ076), 500h service life
High-brightness type15V/100W parabolic-type halogen bulb (12BAJ075), 50h service life
Light guide Fiber-optic cable (1.5 m length, 5 mm dia.)Brightness Adjustable by rotary control
Order No. 378-736Mass 0.8 kg
200
3469515695
132
437
1545
2
361328
114
15
6.53
137
120
1085847
96
11070
110 70 40 96 152
5932
180
4-ø5mm through holes, countersunk ø8
4-M4 screw holes, depth 10
T-groove detailed drawing
185Stage glass top
ø39
76.4
2325
44 135
Fiber-optic cable inlet
120
9
76245
21
39
ø7ø10
2510
53
35.2
60
12097
25722715 15
110
9
1500
2510
ø10
ø7
Order No. 378-730Mass 6.7 kg
Optional Accessories for VMU, FS70 and VM-ZOOM
VMU seriesVMU-V VMU-H
VMU-LB VMU-L4B
6-M4×0.7 screw holes, depth 6
152.
595
(Parf
ocal
distan
ce)
17.5
59.5 19
247.
5 106
20.5
50
2727
76
43.5
27
C mount
(equal numbers of holes at the same positions on the opposite side)
(equal numbers of holes at the same positions on the opposite side)
Intermediate image positionIntermediate image position
Fiber-optic cable mounting position
(optional)Objective
473
ø43
(Emblem)
2727
95 (P
arfoc
al dis
tance
)
1959.5
76
113.
5
106
89.5
5027
113.
5
17.5 63
ø35
43.5
20.5
C mount
Inte
rmed
iate
imag
e po
sitio
n
473
ø43
(Emblem)
(optional)Objective
6-M4×0.7 screw holes, depth 6(equal numbers of holes at the same positions on the opposite side)
Fiber-optic cable mounting position
Inte
rmed
iate
imag
e po
sitio
n
ø43ø43
ø50
13.6
ø323.2
50
27 106
20.543.5
213.
5
ø56 79.6
308.
4
3 47
213.
4
7627
27
19120 59.5
17.5
94.5
101.
5
Objective mount
Workpiece surface
Workpiece surface 95 (P
arfoc
al dis
tance
)
C mount
Laser mountIntermediate image position
Intermediate image position
(optional)Objective
Intermediate imageposition
(Emblem)
Intermediate image position
Fiber-optic cable mounting portionFiber-optic cable mounting position
6-M4×0.7 screw holes, depth 66-M4×0.7 screw holes, depth 6(equal numbers of holes at the same positions on the opposite side)(equal numbers of holes at the same positions on the opposite side)
13.6
23.2
50
27 106
20.543.5
214.
5
79.6
308.
4
3 47
213.
4
7627
27
19120 59.5
17.5
94.5
102.
5 49.549.5
Objective mount
Workpiece surface 95 (P
arfoc
al dis
tance
)
(optional)Objective
ø50ø3ø56
ø43ø43
Intermediate imageposition C mount
Intermediate image position
Fiber-optic cable mounting portionFiber-optic cable mounting position
6-M4×0.7 screw holes, depth 66-M4×0.7 screw holes, depth 6(equal numbers of holes at the same positions on the opposite side)(equal numbers of holes at the same positions on the opposite side)
Laser mount
(Emblem)
Workpiece surface
Intermediate image position
Intermediate image position
ø14 (Compatible with third-party fiber-optic cables)
ø10 (Compatible with Mitutoyo fiber-optic cable)
1219
(2)
10
Fiber-optic cable end position
Adapter for Mitutoyofiber-optic cable
17,5
59
100
79,6
213,
4
ø 43
95
308,
4
41,5
27
7627
20,5 10
6
43,5
59,5 19 Laser-mount Laser-mount
Intermediateimage position
Intermediateimage position
(par
foca
l leng
th)
(optional)FS-objective
Same position andnumber on the other side
6-M4x0,7 depth 6Same position andnumber on the other side
6-M4 x 0,7 depth 6
C-Mount
Intermediateimage position
C-Mount
Intermediateimage position
59,5
43,5
308,
4 2776
2741
,5
95
19
ø 43
213,
479
,6
100
6017
,5
49,5 (49,5)
(optional)FS objective
(par
foca
l leng
th)
ø 56
50
27
27
47
ø 45
50
27
27
Fiber mountingPosition
47
ø 56
ø 45
Fiber mounting Position17
,559
100
79,6
213,
4
ø 43
95
308,
4
41,5
27
7627
20,5 10
6
43,5
59,5 19 Laser-mount Laser-mount
Intermediateimage position
Intermediateimage position
(par
foca
l leng
th)
(optional)FS-objective
Same position andnumber on the other side
6-M4x0,7 depth 6Same position andnumber on the other side
6-M4 x 0,7 depth 6
C-Mount
Intermediateimage position
C-Mount
Intermediateimage position
59,5
43,5
308,
4 2776
2741
,5
95
19
ø 43
213,
479
,6
100
6017
,549,5 (49,5)
(optional)FS objective
(par
foca
l leng
th)
ø 56
50
27
27
47
ø 45
50
27
27
Fiber mountingPosition
47
ø 56
ø 45
Fiber mounting Position
VMU-L VMU-L4
27
Dimensions
MAX78
353
93.4
212
82
154
ø38
MAX13095
324154
1153 (Mounting surface)
79.6
31.7
27.2
Intermediate image position
2525
126.
57.
563.51410
930
51
94
208
4-M4 screw holes, depth 6
MAX78
353
93.4
212
82
154
ø38
MAX130
95
324154
1153 (Mounting surface)
79.6
31.7
Objective mounting surface
(Par
foca
l di
stanc
e)
Intermediate image position
2525
MAX78
353
93.4
212
82
154
ø38
MAX130
95
324154
1153 (Mounting surface)
79.6
40.4
63.5
102
63.5
229
Objective mounting surface
(Par
foca
l di
stanc
e)
Intermediate image position
2525
Vertical travel
3863
.510
263
.522
9
27.2
3863
.510
263
.522
9
Laser mount
Vertical travel Vertical travel
Objective mounting surface
(Par
foca
l di
stanc
e)
Laser mount
Vertical travel Vertical travel
Fiber-optic cable end position
ø10ø7.5
+0.1+0.05
1410
FS70 seriesFS70Z
FS70L4
FS70L
Back of standard focus unit (for all models)
Detail of fiber mount (for all models)
Dimensions
2525
C mount
HR10X objective
459
114.5114.5
42.5
80.6
145
17.5
111.5
95 (P
arfo
cal d
istan
ce)
(Par
foca
l di
stanc
e)100
2525
145
80.6
114.5
111.5
1095
42.5
17.5
133.5
22
78
459
100
351.
4
267.4
250
362
50
109
22100
267.4 111.5
17.5
2525
42.5
VM Z M40 12
6.5
7.5
63.594 (4)
5-M4 screw holes, depth 8
63.5
102
140
144
(4)
2030
ø7.5ø10 +0.1
+0.05
Fiber-optic cable end position
Intermediate image position
Vertical travel
Intermediate image position
Vertical travel
Stage
Stage
748070
748072
Laser mask position
Laser mountLaser port
HR10X objective
Binocular optical path switching knob
Eye pointBinocular unit
Nosepiece knob (standard accessory)
C mount
Intermediate image position
Vertical travel C mount
with filter switching mechanism
(Stroke)45
30˚30˚
Binocular optical path switching knob
C mountback L=2000
60
VM-ZOOM series
Back of standard focus unit(for all models)
Detail of fiber mount(for all models)
Remote Controller
Jog shuttle
VMZ40R-BL
VMZ40R-BL4 (camera mount position)Other dimensions except for camera mount are same as those for VMZ40R-BL.
VMZ40M
29
1. N.A. (Numerical Aperture)N.A. determines resolving power, depth of field, and luminosity of the image. The larger the N.A. the higher is the resolving power and smaller is the depth of field. N.A.=n•Sinθ
n is the index of refraction of the medium in which the lens is working. n=1.0 for air.θ is the half-angle of the maximum cone of light that can enter or exit the lens. Objective
Air (n=1)Workpiece
Stage glass
θ
2. R (Resolving Power)Minimum distance between points or lines that are just distinguishable as separate entities.Resolving power is determined by N.A. and wavelength λ.
R (μm) =
3. W.D. (Working distance)Distance between the surface of the specimen and the front face of the objective when in focus.
4. Parfocal LengthDistance between the surface of the specimen and the objective mounting position when in focus.
Parfocal distance
Working distance
5. Infinity-corrected systemAn optical system in which the image is formed by an objective and a tube lens with an 'Infinity Space' between them, into which optical accessories can be inserted.
ObjectiveImaging (tube) lens
Infinity space
Imaging lens focal point (image point)
Magnification = f2/f1
Objective focal point (object point)
f1 f2
6. Finite-corrected optical systemAn optical system in which the image is formed only by an objective.
L1 L2
Object point
Objective
Image point
Magnification = L2/L1
8. Field number and FOV (Real Field of View)The field number of an eyepiece is determined by the field stop diameter of the eyepiece and it is expressed in mm.
FOV is the area of specimen observable and is determined by the field number of the eyepiece and magnification of the objective.
9. DOF (Depth of Focus)Vertical distance in the specimen, measured from above and below the exact plane of focus, which still yields an acceptable image.The larger the N.A., the smaller the depth of field.
7. F (Focal Length)Distance between a principal point and a focal point. f1 is a focal length of an objective, f2 is a focal length of a tube lens. Magnification is determined by the ratio of the focal length of the tube lens to that of the objective. (For an infinity-corrected optical system.)
λ2•N.A.
200 (mm)200 (mm)
Focal length of tube lensFocal length of objective
(Ex.) 1X =
Magnification of objective =
200 (mm)20 (mm)
(Ex.) 10X =
241
Field number of eyepieceMagnification of objective
FOV (mm)=
FOV for 1X objective = = ø24 (mm)
(Ex. Using an eyepiece of field number 24)
2410
FOV for 10X objective = = ø2.4 (mm)
Area of specimen observable on TV monitor
Area of camera image element (VxH)Magnification of objective
Area of specimen observable on TV monitor
Indication magnification on TV monitor
* Size of camera image element (V x H x Diagonal)1/3 inch image element: 3.6x4.8x6.0 mm 1/2 inch image element: 4.8x6.4x8.0 mm2/3 inch image element: 6.6x8.8x11.0 mm
=
Diagonal line length of monitor indicationIndication magnification
on TV monitor= Magnification
of objectivex
Diagonal line length of camera image element
±DOF (μm) =λ
2x(N.A.)2 λ=550nm (Standard wavelength)
TV monitor observation
±DOF (μm) =ω x 250.000
N.A. x M
ω: Resolution of human eye (Visual angle: 5 minute)M: Total magnification (Objective mag. x Eyepiece mag.)
Eyepiece observation (Formula of Berek)
λ
2x(N.A.)2 + λ= Radiation wavelength
Glossary
13. Telecentric illuminationThis illuminating optical system is designed so that principal light passes through the focal point. This system has the advantage of retaining the size of the image center even if it is out of focus (although the circumference of the image is defocused). This illumination system provides an even illumination intensity over the entire field of view.
14. Aperture diaphragmThis diaphragm adjusts the amount of light passing through and is related to the brightness and resolving power of an optical system. This diaphragm is especially useful in width dimension measurement of cylindrical objects with contour illumination, and provides the highest degree of correct measurement/observation by suppressing diffraction in an optimal aperture.
15. Field stopThis diaphragm is used for blocking out unwanted light and thereby preventing it from degrading the image.
• Spot diameterIf a beam of light with a uniformly distributed intensity enters an objective from the rear, the beam is condensed to a spot of finite size. This size is known as the spot diameter. The approximate value of a spot diameter is calculated from the following expression.
However, the above expression cannot be applied if the light source is a laser beam of which the intensity forms a Gaussian distribution on the cross section. The diameter of a laser beam is generally indicated by 1/e2 of the peak value, i.e. 13.5% of the peak value. The spot diameter of a laser beam is calculated from the following expression.
ø mm = 2 x N.A. x f
ø μm = 1.22xλ
N.A.
ø μm =
95
Beam splitter
Imaging system
Illuminated field of view
Relay lens Field stopAperture
diaphragm Condenser lens Fiber-optic cable
Objective
Pupil diameter
Beam spot diameter
4xλxfπxD
10. Bright field illumination and dark field illumination
Bright field illumination directly lights the specimen with a solid cone of rays and is the simplest method available. Dark field illumination uses a hollow cone of rays formed by an opaque stop at the center of the condenser large enough to prevent direct light from entering the objective. The specimen is placed at the concentration of the light cone, and is seen with light scattered or diffracted by it, therefore scratches and dents on the specimen surface are illuminated while the rest remains dark.
11. Apochromatic objective and achromatic objective
An apochromatic objective is corrected for chromatic aberration at the red, blue, and yellow wavelengths. An achromatic objective is corrected for chromatic aberration at the red and blue wavelengths only.
12. Koehler illuminationKoehler illumination overcomes the disadvantages of other schemes by causing parallel rays to light the specimen so that, because they will not be in focus, the image of the specimen will not include an image of the light source.
16. PlanDenotes an objective lens that produces a flat (planar) image by correcting the spherical aberration/curvature of the field of an achromatic lens or an apochromatic lens. All Mitutoyo FS series objectives are plan apochromat.
17. VignettingThis unwanted effect is the reduction of an image's brightness or saturation at the periphery compared to the image center. May be caused by external (lens hood) or internal features (dimensions of a multi-element lens).
18. FlareLens flare is typically seen as several starbursts, rings, or circles in a row across the image or view, caused by unwanted image formation mechanisms, such as internal reflection and scattering of light.
19. Double imageAn image degrading a phenomenon in which an image appears as if it is a double image due to redundant light projection and optical interference within the optical system.
20. Pupil Diameter and Spot Diameter of an Objective
• Pupil diameterDenotes the maximum diameter of a parallel light flux along the optical axis that can enter an objective from the rear. The pupil diameter is calculated according to the following expression.
31
Test Equipment andSeismometers
Coordinate Measuring Machines
Vision Measuring Systems
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Digital Scale and DRO Systems
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OYO
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Note: All our product details, in particular the illustrations, drawings, dimensional and performance details and other technical specifications contained in this publication are to be considered to be approximate average values. To this extent, we reserve the right to make changes in design, technical data, dimensions and weight. Our specified standards, similar technical rules and technical specifications, descriptions and illustrations of the products are correct at the time of printing. The current version of our general terms and conditions also apply. Only offers which we have submitted can be considered to be definitive.